Pfnek3: an atypical activator of a MAP kinase in Plasmodium falciparum.

The canonical mitogen-activated protein kinase (MAPK) signal cascade was previously suggested to be atypical in the malaria parasite. This raises queries on the existence of alternative mediators of plasmodial MAPK pathways. This study describes, Pfnek3, a malarial protein kinase belonging to the NIMA (Never in Mitosis, Aspergillus) family. Endogenous Pfnek3 is expressed during late asexual to gametocyte stages and lacks some classical protein kinase sequence motifs. Moreover, Pfnek3 is phylogenetically distant from mammalian NIMA-kinases. Recombinant Pfnek3 was able to phosphorylate and stimulate a malarial MAPK (Pfmap2). Contrastingly, this was not observed with two other kinases, Pfmap1 and human MAPK1, suggesting that the Pfnek3-Pfmap2 interaction may be specific for Pfmap2 regulation. In summary, our data reveal a malarial NIMA-kinase with the potential to regulate a MAPK. Possessing biochemical properties divergent from classical mammalian NIMA-kinases, Pfnek3 could potentially be an attractive target for parasite-selective anti-malarials.

Pfnek3 functions as an atypical MAPKK in Plasmodium falciparum.

Eukaryotes generally rely on signal transduction by mitogen-activated protein kinases (MAPKs) for activating their regulatory pathways. However, the presence of a complete MAPK cascade in Plasmodium falciparum is debatable because a search of the entire genome did not portray known MAPK kinase (MAPKK) sequences. Via homology PCR experiments, only two copies of plasmodial MAPK homologues (Pfmap1 and Pfmap2) have been identified but their upstream activators remain unknown. In an earlier experiment, Pfnek3 was found to be an unusual activator of Pfmap2 in in vitro experiments, despite its molecular identity as a malarial protein kinase from the NIMA (Never in Mitosis, Aspergillus) family. In this study, the role of Pfnek3 as a likely upstream MAPKK is defined through molecular and biochemical characterization. Since a previous report proposes a TSH motif as an activation site of Pfmap2, its site-directed mutants, T290A, S291A, and H292K were constructed to elucidate the involvement of Pfnek3 in phosphorylating and activating Pfmap2 in a battery of kinase assays. The results suggested that residue T290 is the site of phosphorylation by Pfnek3. This supposition was further supported by liquid chromatography mass spectrometry. Although P. falciparum does not appear to possess a conventional MAPK cascade, they may rely on other kinases such as Pfnek3 to carry out similar phosphorylation to activate its signaling pathways.